Department of Foreign Languages, Beijing Normal University
Foreign Languages Dept, Tianjin University of Technology
[email protected]
The retroflex suffixation is one of the interesting phonological
phenomena in Beijing
Mandarin and has engendered much discussion. But most of the
discussions are made from social,
historical and experimental points of view. Recently, some of the
scholars overseas have applied
different theories of Generative Linguistics to analyze it and
proposed different explanatory
theoretic models for it. In this paper, I will first present the
data of Mandarin retroflex suffixation
reported by different scholars, then introduce some representative
models proposed so far to
account for Mandarin retroflex suffixation, and finally make a
discussion on it from the OT
perspective.
1. Mandarin Retroflex Suffixation
The studies on retroflex suffixation are abundant in the Chinese
linguistic literature. Most of
them are the (synchronic or diachronic) data descriptions (e.g.,
Tao & Yin 1957; Chao 1968; Xu
1960; Wang 1963; Lin 1982; Hsueh 1986; Lin & Shen 1995; Li
1986; Lu 1995) or phonetic /
perceptional experiments (Wang & He 1985; Bao 1989; Li 1990;
Yang 1991). These studies are
often different in their data presented. For ease of exposition, I
will introduce only some
representative studies on it and then, after consulting and
comparing several representative
empirical studies, present a more general version of the
retroflexed forms in Beijing Mandarin.
1.1 Some Empirical Studies
The retroflex suffix is considered to evolve from “li”, “ri” and /
or “er” (Chao 1968:46;
Hsueh 1986:741; Lin & Wang 1992:165-166) and, as Hsueh
(1986:73) claims, it is now added or
merged into the preceding syllable, assigning a diminutive meaning
to it. “er” as a diminutive
suffix probably first appears in no earlier than Ming dynasty. Xu
(1999:133) points out that the
dimunitive suffix “er” was originally an independent syllable and
has been merged into the
preceding syllable due to the long time of fast speaking.
Morphologically, the retroflex suffix is
usually written as an independent morpheme “er” (Lin 1982/1990:62)
but, as Tao and Yin
(1857:31) noted, some syllables are read with the diminutive
retroflex even if the suffix “er” is not
written out.
It is widely acknowledged that the suffix “er” is now the only
non-syllabic morpheme or,
straightforwardly speaking, a segment-affiliated feature in
Mandarin. The problem is: how is it
combined with or incorporated into the root or preceding syllable
in the phonological process of
1 Hsueh (1986) claims that “ri” is only the historical source of
Mandarin retroflex suffix.
2
Mandarin retroflex suffixation?
Tao and Yin (1957) claim that the retroflex suffixation in Mandarin
is simply adding the color
of retroflex or rhotacization to the ending of the preceding
suffixed syllable or stem. If the suffixed
syllable ending is incompatible for rhotacization, it will be lost
in the process of its retroflex
suffixation. The ways of retroflex suffixation they proposes can be
summed up as the following
types:
(1) Tao & Yin (1957)
a. Add the color of retroflex directly to the syllable ending with
a, o, e, or u;
b. Add the retroflexed mid central vowel [Br] after the singleton
high vowel rime i or ;
c. Replace the apical vowels with the retroflexed mid central
vowel;
d. Delete the post-nuclear glide from the rime ai, ei, or ui and
then for the first two rimes
add the color of retroflex to the remaining nuclear vowels a or e
and for the last rime
ui add the retroflexed mid central vowel [Br] to the end of
it;
e. For the palatal nasal rimes an, en, in and n, first delete the
nasal consonant and then,
for the first two rimes, add the color of retroflex to the
remaining nuclear vowels; for
the last two ones, add the retroflexed mid central vowel [Br] to
the remaining i and ;
f. For the velar nasal rimes, nasalize the nuclear vowels before
deleting the velar nasal
ending and then retroflex the nasalized nuclear vowels.
Obviously, according to Tao and Yin (1957) there are mainly two
types of retroflex suffixation:
one is adding the color of retroflex to the last (remaining)
vocalic segment of the syllable; and
another is adding the retroflexed mid central vowel [Br] to the end
of the suffixed syllable or
stem.
Li (1986) claims that there are two types of retroflexion in
Mandarin: additive type and
fusional type. For the additive type, the retroflex is just added
to the end of the rime, i.e., a
retroflex liquid is usually added to the end of the vowel of the
suffixed rime. Take (¦)) (tà+Br, orange) for example. The rime of
the suffixed syllable [] is incompatible with
retroflexion since it is a front high vowel and thus the retroflex
suffix is added to the nuclear
vowel of the suffixed syllable, forming a complex rime. For the
fusional type, the retroflex action
starts simultaneously with the articulation of the rime, i.e., the
monosyllabic retroflex suffix and
the suffixed nuclear vowel are fused into a singleton retroflexed
vowel. Take ()µ(tàu+Br,
eyeball) for example. The rime [u] is compatible with retroflexion
and thus fused with the
retroflex suffix into a retroflexed singleton rime. Li claims that
Mandarin has shown a constant
change from additive to fusional retroflex suffixation. And he also
makes an experiment to show
there exist such two types of retroflexion now in Mandarin (Li
1990).
Wang and Wang (1991:98) criticize Li’s classification on the basis
of two types of
retroflexion and his claim that Mandarin exhibits a constant change
from additive to fusional
retroflex suffixation. Based on their acoustic and perceptional
experiments, Wang and He
(1985:27) claim that in Mandarin, the retroflex action is almost
simultaneous with the articulation
of the rime of a syllable. Lin and Wang (1992:169) reiterate this
idea that in Mandarin the retroflex
action starts simultaneously with the articulation of the rime,
with the onset unaffected. They point
3
out that under the retroflexion the vocalic segments in the rime
(not including the pre-nuclear glide)
have undergone some changes and the difference in Mandarin
retroflexion mainly lies in the
degrees of the retroflexion of the vowels in these rimes. The
retroflex suffixed forms in Beijing
Mandarin that Wang and He (1985:48) report are displayed as in the
following table.
(2)
`¢ tÊ¢ ëÊ `¢ tÊ¢ ëÊ `¢ tÊ¢ ëÊ `¢ tÊ¢ ëÊ
ò
f ei ± uei
u ur
a1 $r in1 ia r % u$1 u$r
D B1 Br F i1 iB r à B1 uBr _ u1 Br
O u1 (ur)
Note that, as Chao (1968) and many other scholars point out, the
front high vowels [i, ] do not
take the color of retroflexion as they are incompatible with
retroflexion. When the front high
vowel [i]2 (precisely speaking the off-glide) is preceded by a
non-high (nuclear) vowel, it will be
deleted when the rime is retroflexed; when the front high vowels
are in the nuclear position, an
embedded lax mid central vowel will be in the target of
retroflexion. To put the rimes with the
velar nasal ending aside, we generally have four basic types of
retroflexed rimes: [ar], [ur], [Br]
and [Ar]3 (Wang & He 1985:39). These four types of retroflexed
rimes exhibit that the retroflex
suffix has been fused into the rimes and is realized only as a
retroflex feature attached to the
vowels [a], [u], [B] and [A]. Wang and He’s idea that the retroflex
suffix in Beijing Mandarin is
realized only as a feature attached to the suffixed rime gains
support from some other scholars. Lin
and Wang (1992:169) point out that the rime (not including the
pre-nuclear glide) will undergo
some changes under the retroflex suffixation. Specifically, when
the nuclear vowel of the suffixed
syllable is a non-high vowel or a back rounded high vowel, the
retroflex action starts just from the
2 Since [] does not occur in coda position, the front high vowel
(glide) that follows a non-high vowel is only [i]. 3 To precisely
represent that the segment is retroflexed, here I will use the
superscript [r] to indicate that the
segment with the [r] superscript is retroflexed.
4
articulation of this nuclear vowel; when the nuclear vowel is a
front high vowel [i] or [], the
retroflexed mid vowel is added to it and the front high nuclear
vowel becomes a correspondent
pre-nuclear glide. Wang and He (1985) and Lin and Wang (1992) show
with their acoustic and
perceptional experiments that the retroflex suffixation in Beijing
Mandarin is not merely an
addition of a retroflex suffix to the end of a preceding syllable
but actually incurs the retroflexion
of the whole rime of the preceding syllable. Their studies are
simply the denials of the additive
and fusinal classification of retroflex suffixation in Beijing
Mandarin as Li (1986) advocates. Next,
I will present my empirical analysis of different kinds of
retroflex suffixation in Mandarin.
1.2 Reconsidering the Retroflex Suffixation
In the previous subsection, I have mentioned that Mandarin
retroflex suffixation has long
been considered to be the incorporation of an independent suffix
(either a syllable or a retroflex
segment) into the preceding syllable. In process of the
incorporation, the rime of the preceding
syllable will be altered to some extent that it can be naturally
co-articulated in spoken Chinese.
Recent acoustic and perceptional experiments show that the
retroflex suffixation in Mandarin is
not a simple addition of a retroflex suffix to the preceding
syllable but actually incurs the
retroflexion of the whole rime of the preceding syllable. Thus,
some scholars (e.g. Wang 1993)
assume that the retroflex suffix is lexically not a segmental
entity but an entity less than a full
segment, i.e. just a single suffixal feature.
Obviously, the featural concept deviates from the traditional
concept that the retroflex suffix
is morphologically and diachronically a de-syllabified monosyllabic
segment. Such a concept
seems to represent the actual changes of the rime in retroflex
suffixation but, on second thought, it
ZLOO HYHQWXDOO\ OHDG WR VRPH SUREOHPV )RU LQVWDQFH WKH UHWURIOH[HG
IRUPV RI >V@ (silky, ò) and
[tÓ] (twig, r) are respectively [sBr] and [tsBr]. Here, the apical
high vowels are replaced by a
retroflexed mid vowel [Br]. If we assume that the retroflex suffix
is not a segment but a feature, in
the phonological analysis, we have to consider epenthesizing a lax
mid vowel after the dental or
retroflex sibilant before the feature retroflex suffixation
applies. How can we deal with the feature
retroflex suffixation for the above cases? Possibly there are two
ways of treatment. XSuppose
that the apical vowels are lexically empty. The epenthesis of the
lax mid vowel is triggered by the
retroflex suffixation. A retroflex feature is added to the syllable
without a vocalic segment but this
feature finds no place or segment to depend on and thus triggers
the vowel epenthesis. But the
problem with this way of treatment is why the retroflex feature
applies to a lax mid vowel instead
of other mid vowels. Obviously, the feature-based retroflex
suffixation finds no motivation for the
epenthesis of a mid vowel. YSuppose that the apical high vowels are
lexically present. The
process of the retroflex suffixation is the combination of the
apical vowel deletion and the mid
vowel epenthesis. That is, the retroflex feature is added to the
syllable and the lexically present
apical high vowels are deleted due to the incompatibility for
articulation with a retroflex feature.
After the apical high vowels are deleted, the additive feature
finds no place or segment to depend
on and triggers the mid vowel epenthesis. A question will arise as
to why the retroflex suffixation
triggers the deletion of the only apical high vowels instead of all
the high vowels. The naturalness
of such an explanation is doubtful.
5
Consider the following facts concerning the retroflex suffix in
Beijing Mandarin: XThe
retroflex suffix evolves from a monosyllabic word. YThe suffix is
spelled out in most cases as a
morphological entity. ZIn some dialects, the retroflex suffix is
still an independent monosyllabic
entity. And [even among some old Beijing natives, the suffix is
still retained as an independent
morpheme. All these facts lead us to the following conclusion that
the retroflex suffix in Beijing
Mandarin is, at least lexically, an independent entity. There is an
important point that needs to be
called into attention. The lexically independent monosyllabic
entity does not mean that it will be
necessarily realized as a segmental entity. In fact, the lexically
independent retroflex suffixal entity
in Beijing Mandarin is, in most cases, phonetically realized as a
rime-dependent feature. That is to
say, the retroflex feature is a kind of superficiality, or,
technically speaking, a phonetic realization
of the underlying lexical form. A phonological analysis can and
must present a clear and insightful
picture of the whole process of the phonological phenomena.
But the same question will be raised: how is a segmental retroflex
suffix phonetically realized
as a retroflex feature attached to the rime of the suffixed
syllable? This is just the question that the
present paper is supposed to answer. Before answering this
question, let us first talk about the
significance of identifying the retroflex suffix as a lexically
independent monosyllabic entity here.
The significance of identifying the Mandarin retroflex suffixation
as a lexically independent
monosyllabic entity can be generalized as the following
points:
XIt can reflect the historical source of this suffix. As many
scholars point out, the suffixed
syllable and the retroflex suffix were originally two separate
phonological and morphological
entities. The retroflex suffix lost its syllabicity and merged into
the suffixed syllable due to the
long time of fast speaking. The treatment of the retroflex suffix
as a lexically independent entity
can well reflect where this suffix comes from.
YIt is fully in conformity to the morphological and psychological
reality of the retroflex
suffixation in Beijing Mandarin. As we know, in most of the cases,
the retroflex suffix is written as
an independent morpheme and the speaker usually tries to spell out
the stem and this retroflex
suffix at one breath. Morphologically and psychologically, the stem
and the suffix are conceived to
converge into one syllable when they are pronounced.
ZIt is of great significance to the typological generalization of
retroflex suffixation across
different Chinese dialects. Lu (1995), F-T. Wang (1999) and many
others observe that there exist
different types of diminutive retroflex suffixation across
different Chinese dialects. To establish
the typological relations among these different dialects, we may
assume that they have the same
type of a lexical diminutive suffix. Their difference in the
phonetic realization of retroflex
diminutive suffixation lies solely or principally in the ranking of
some relevant universal
constraints. As I will demonstrate, the phonetic realization of the
retroflex suffix as an attached
feature is mainly due to the dominance of the markedness
constraints over the faithfulness
constraints.
From the above analysis, we conclude that the Mandarin retroflex
suffix is lexically an
independent monosyllabic morpheme and, in most cases, is
phonetically realized as a retroflex
feature attached to the rime of the suffixed syllable in Beijing
Mandarin.
Now the problem is: how is the retroflex suffix phonetically
realized as a feature attached to
the rime of the suffix syllable or, to put it in another way, how
is the retroflex suffix incorporated
6
into the suffixed rime? As we have mentioned above, nearly all the
scholars agree that when the
nuclear vowel is a front high vowel, a retroflex mid vowel is added
to it. But as for the other
vowels, some scholars (e.g., Wang & He 1985; Lu 1995) consider
that all of them are retroflexed;
but some scholars (e.g., Li 1986) disagree and claim that some of
them are retroflexed and some
are not and for those that are not, a retroflex suffix is added to
the rime in the retroflex suffixation.
As for which vowels can be retroflexed and which are not, no
agreement has been reached among
the Chinese scholars.
Li (1990:171) reports that his analysis of his Beijing native
speaker’s pronunciation shows
that the fusional retroflexion applies to the rimes ending with the
back rounded high vowel [u]
(see the syllables listed in Type B in his paper) while additive
retroflexion applies to the other
rimes (listed in Type A in his paper). Wang (1997b) studies the
previous acoustic results and
proposes that phonologically retroflexion is compatible with the
[+back] vowels and the retroflex
color of the [back] vowels incompatible with retroflexion is
derived at the phonetic level of
representation through the interpolation rules advocated by
Pierrehumbert (1980). Specifically,
Wang (1997b) assumes that phonologically the back vowels, such as
[u], can be retroflexed while
the front vowels, such as [i] and [a], cannot. Based on the
experiment made by Bao and Yang in
1986, Bao (1989:104-5) concludes that fusional and additive
retroflexion co-exist in the
present-day Beijing Mandarin and which vowels are retroflexed in
the fusional or additive way
depends not on the retroflexed vowel itself but on the speakers.
Wang and He (1985) claim that the
retroflex action starts almost simultaneously with the articulation
of the nuclear vowels of the
suffixed syllable except when the front high vowel [i] or [] is the
nucleus. In sum, these studies
show that the back vowels are compatible with retroflexion while
the front high vowels are not.
The front non-high vowels are in controversy.
Before presenting my analysis of Mandarin retroflex suffixation
from an OT perspective, let’s
look at some of the pre-OT analyses made so far.
2. Past Phonological Analyses
Retroflex suffixation is very common in spoken Beijing dialect.
When a word or a syllable is
retroflexed, it will take a diminutive meaning. The most
interesting aspect of Mandarin retroflex
suffixation is that the retroflex suffix is not simply an additive
suffix. When a word or a syllable is
retroflexed, the retroflex suffix will lose its syllabicity and the
rime of the suffixed syllable will
undergo some changes. Such a linguistic phenomenon has attracted
much attention of linguists.
Studies have been conducted within different theoretical framework
and some different proposals
have been advanced so far. In the rest of this section, I will look
at these studies and their
proposals and see what achievements they have made and what
deficiencies they have in
phonological description and representation of the retroflex
suffixation in Beijing Mandarin.
2.1 Linear Approach
Linear approach refers to the approach in which a phonological
representation is assumed to
be composed of a linear string of segments. Cheng (1973) was the
first to conduct an analysis of
7
the Mandarin segmental phonology within the linear framework of
Generative Phonology. Within
this framework, Cheng (1973) presents his analysis on the Beijing
retroflex suffixation. He assumes that the retroflex suffix is /)r/
underlyingly and the mid un-rounded vowel is deleted
when the Retroflex Suffixation rule is applied. The remaining
retroflex liquid /r/ is added to the
rime of the suffixed syllable. To get the expected result, of
course, some other rules must be
required to involve in. Take “È” (rope) for example. The rules and
their ordering in the
derivational process of the required form that Cheng (1973)
proposes can be illustrated as in (3).
(3) )1 )r
ZRetroflex Suffixation rule B1r
\Velar Nasal Deletion rule Br
The figure in (3) shows the derivational process of the retroflexed
syllable [Br]. In the first step,
the Backness rule applies and the non-high vowels are assimilated
in backness respectively by
their immediately neighboring segments [1] and [r]. Then, the Mid
Vowel Laxing rule involves in
and makes the mid vowel before a consonantal ending become schwa.
Next, the Retroflex
Suffixation rule deletes both the vowel and the tone of the suffix
and makes the remaining
retroflex liquid as part of the suffixed syllable. After the Velar
Nasalization rule nasalizes the
preceding nuclear vowel and the velar nasal is deleted under the
effect of the Velar Nasal Deletion rule, the expected result [Br]
is derived.
Clearly, there are some problems with Cheng’s rule-based derivation
of retroflex suffixation.
The r-retroflex is treated as a suffix of the retroflex liquid
simply added to the rime of the suffixed
syllable. But, as some acoustic and perceptional experiments show,
in Mandarin the retroflex
action is almost simultaneous with the articulation of the rime of
a syllable. This means that the
Mandarin retroflex suffixation is not the simple adding of a
retroflex liquid to the end of the
suffixed syllable but the complex fusional process of the retroflex
suffix and the suffixed syllable.
Obviously, Cheng’s (1973) analysis cannot exhibit such a
phonological change in Mandarin
retroflex suffixation clearly.
Like the other rule-based analyses, Cheng’s analysis is also
subject to the external ordering of
the rules and the inevitable divergence of the focus of study from
the surface forms to the assumed
abstract underlying forms. It can be clearly seen in (3) that the
Backness rule, which effects the
backness assimilation of the non-high vowels respectively to their
immediately neighboring
segments, is de-effected by the following Mid Vowel Laxing rule. It
goes without saying that the
problem of this kind is an ultimate outcome of the serial
derivational approach. Besides, like most
8
of the other rule-based theories, the rules are often formulated
with excessive reference to the
language specific properties and thus lack universality. And
consequently, the observations of the
typological variations across different languages are hard to be
reflected.
2.2 Non-linear Approach
Non-linear approach to phonology starts in the 1970s. Goldsmith
(1976), in studying the
tones of African languages, develops the theory of Autosegmental
Phonology. In this theory,
phonological representations are composed of several independent
tiers and tones are assumed to
exist in one tier independent of the skeletal (or root) tier where
a phonological change in one tier
will not necessarily affect the phonological units in another tier.
Autosegmental Phonology
systematically develops a new way of phonological description and
paves ways for the develop-
ments of other phonological theories. Clements and Keyser (1983)
apply the non- linear
autosegmental method to the study of syllable internal structure
and advance the CV theory. Other
syllabic theories advanced after the inception of Autosegmental
Phonology includes X-slot theory,
government phonology, mora theory, etc. Clements (1985) and Sagey
(1986) adopt the non-linear
approach to account for the intrinsic relations between the
phonological features and develop the
theory of feature geometry (see Wang 2000; Ma 2001a). Of course,
these studies have great
influence on study of Mandarin phonology and have touched off a
number of studies on the
Mandarin retroflex suffixation in the 1980s. The representative of
these studies are Yin (1986),
Lin (1989), Duanmu (1990), Wang (1993) and Goh (1997)4.
Yin (1986) proposes that the retroflexed rime in Beijing Mandarin
is the result of
re-syllabification of the stem and the retroflex suffix. Her
autosegmental treatment of Mandarin
retroflex suffixation can be illustrated as follows (see Lin
1989:101; Wang 1993:186):
(4) a σ σ b. σ σ … Underlying Forms
O R R O R R
X X X X X X X X X X
k u a n r p i r
O R O R … Syllable Merger
X X X X X X X X
k u a n r p i r
4 Goh (1997) discussed Mandarin retroflex suffixation within the
framework of government phonology. Since
government phonology is one of the holistic theories, different
from the DF-based studies made by the scholars like Yin (1986), Lin
(1989), Duanmu (1990) and Wang (1993), I will make no comments on
it here. Interested readers can refer to Ma (1999; 2000a, b).
9
X X X X X X X X
k u a<n>r p i r
O R … /r/-spreading
p i r
In (4), the processes of retroflex suffixation for [kuan]
(official, v) and [pi] (pen, é) are
presented. Two points need to be noted here: XThe underlying (or
lexical) form is [Br] (that is,
represented by /r/ associated with two timing slots dominated by R)
and it has two alternative
phonetic realizations [r] (when re-associated with only one timing
slot) and [Br] (when
re-associated with two timing slots). YThe syllabic template is not
fixed. It may consist of either
two syllabic constituents (O and R) or one (only R). Besides, a
syllable may have either four
timing slots (as in [kuan]) or two (as in [pi]). But the syllabic
template for the retroflexed form is
fixed. It is composed of four timing slots, two of which are
dominated by O and two by R.
Within the non-linear framework, Lin (1989) also makes an analysis
of the Mandarin
retroflex suffixation. Lin’s (1989) analysis is very similar to
Yin’s (1986). But hers is different in
three respects: XLin assumes that the underlying form of the suffix
is a retroflex liquid /r/. The
phonetic realization [Br] derives from the schwa epenthesis. YShe
refuses that there is an
invariable syllabic template for the retroflexed form (Lin
1989:101). ZUnlike Yin (1986, 1989),
Lin considers that vowel epenthesis should be employed to account
for the fact that schwa appears
in some of the rimes like [pi] after the retroflex
suffixation.
Duanmu (1990) studies eight Chinese dialects representing eight
Chinese dialect families and
proposes that all the Chinese dialects share the same invariable
syllabic template, which consists
of three timing slots, one for the Onset and two for the Rime. With
his fixed three-slot syllabic
template, Duanmu presents his analysis of the retroflex suffixation
in Mandarin Chinese. Duanmu
(1990:53) claims that the retroflex suffixation is a process of
adding a suffix /r/ to a (monosyllabic)
noun and then the noun and the retroflex suffix are fused into one
syllable. Specifically, if the
second slot (or coda slot) of the rime is empty, the suffix /r/
will be added directly to it; if the
second slot has been occupied by a post-nuclear glide or nasal
consonant, it will replace the
original coda that occupies the coda position. Duanmu (1990:54)
points out that in the
syllabification, the retroflex suffix /r/ surfaces as [+low] after
[a], [+high] after [u] and [−high,
−low] otherwise. He proposes to utilize feature geometry to account
for the retroflex color that the
nuclear vowel obtains after the suffix /r/ is added.
10
The three studies introduced above are very similar to each other.
All of them consider that
the retroflexed rimes result in the inclusion of the retroflex
suffix to the stem syllabic template.
The suffix /r/ is incorporated and occupies the coda position if
the coda position is vacant, or
replaces the segment in the coda position if this segment is
already in the coda position and the
replaced segment will be deleted by the stray erasure rule. There
is no problem if the segment in
this position is [i] or [n] since it is acoustically shown that
they are lost after the retroflex
suffixation. But if the segment in the coda position is [u] or [1],
the above way of treatment, the
way of replacing the segment in the coda position with /r/, is
impracticable, since the experiments
show that the segment [u], or at least the feature [+round], is
retained and the [1] nasalizes the
preceding vowel before it is replaced by the retroflex suffix
[r].
To account for these, Yin (1989) and Lin (1989) both maintain that
the /u/ ending in the
retroflex final, such as /aur/, is a separate segment but forms a
short diphthong with a low vowel.
Take /aur/ for example, they assume, following Fu’s (1980) view,
that /a/ and /u/ form one
segment /&/ in the retroflex final, that is, /aur/ is assumed
to be phonetically realized as /&r/. As
for the ending /1/ in the retroflexed rime, Lin (1989:106-8)
assumes that the retroflexed rime with
the /1/ is different from the rime with /n/ in that in the former
case the velar nasal is re-associated
with the nuclear position after being de-linked with the coda
position in the skeletal tier as the
retroflex suffix is linked to it. Lin (1989:107) suggests that the
re-association rule applies before
the stray erasure rule comes in. The re-association rule stipulates
that the segment to be
re-associated must be with the feature specification [+back].
Duanmu’s (1990) treatment is similar to Yin’s (1989) and Lin’s
(1989). He proposes that the
ending /u/ is first replaced by the retroflex suffix /r/ and then
the feature of the /u/ is re-associated
with the /r/ by means of “feature recycling” (Duanmu 1990:56-7),
thus resulting in the rounded
retroflex ending. As for the rime with /1/, Duanmu (1990) maintains
that it nasalizes the preceding
nuclear vowel before it is replaced by the retroflex suffix
/r/.
Wang (1993) criticizes that those treatments proposed above do not
provide a satisfactory
explanation for retaining /u/ or nasalizing the nuclear vowel in
the retroflex suffixation. She argues
that a satisfactory phonological explanation for the retroflex
suffixation in Mandarin Chinese must
have recourse to feature geometry (Clements 1985; Sagey 1986;
McCarthy 1988) and under-
specification theories (Archangeli 1984, 1988; Pulleyblank 1988a,
1988b) advanced in the late
1980s. The syllabic template she proposes, very similar to Duanmu’s
(1990), has three skeletal
positions, one for the onset and two for the rime. The difference
is that she adopts the moraic
theory, that is, the rime of a heavy syllable in Mandarin is
represented by two moras (µµ), which is
linked by two roots (rt), equivalent to two segments. The retroflex
suffixation is derived from the
mechanism of feature incorporation. The feature retroflex suffix
she proposes is [posterior],
shorten as [pos] in her dissertation. [pos] is contained in the
lexicon and in the process of retroflex
suffixation it is compulsorily incorporated into the rime.
Specifically, the feature [pos] is linked to
the two roots of the rime. She points out that sometimes the
incorporation of the feature [pos] in
some segments is simply the addition of the feature to the roots
but sometimes it may involve
de-linking of certain incompatible stem features. The incompatible
stem feature she claims is
[coronal]. That is, the segment with the feature specification
[coronal] is incompatible with the
retroflex feature [pos] and will be de-linked with the root node
when the retroflex feature is
11
compulsorily associated with the root nodes of the rime5. And thus,
the ending /w/ or /1/ will not
be replaced since they are not [coronal] segments but the ending
with /y/ (in her transcription /j/)
or /n/, or the rime /i/, //, / RU Î/ will be replaced by the
feature [pos] since they are specified
with the incompatible feature [coronal]. The two phonological
processes, feature addition and
feature changing, in the retroflex suffixation are illustrated with
the following two examples.
(5) a. feature addition: [nyarwr] (bird, ô) (Wang 1993:189)
σ σ σ σ
µ µ µ µ µ µ µ µ
NSL SON → NSL SON SON → NSL SON SON → NSL SON SON
dis low mid dis low mid dis low pos mid dis low pos mid
pos pos
σ σ σ σ
µ µ µ µ µ µ µ µ
ASP NSL → ASP SON NSL → ASP SON SON → NSL SON SON
NSL
lab low pos lab low pos dis low pos dis low pos
(5a) and (5b) are the illustrations of how the retroflex feature
[pos] is incorporated in Wang’s
analysis. In (5a), the feature [pos] is linked to the root node
directly without triggering any change
to the original structure since the features of the nodes are
compatible with [pos]. Thus, it results
in the addition of a single retroflex feature to the nodes. But in
(5b), the linking of the feature [pos]
to the nodes results in the de-linking of the feature [NSL] since
these two features are incompatible
with each other.
Indeed, it seems true that the retroflex suffix is a feature suffix
since the suffix is, in most
cases, realized as a feature attached to the rime. But, as I have
pointed out, this is only the
superficiality. As a matter of fact, some old Beijing natives now
still treat the retroflex suffix as a
segment or a monosyllable (F-T. Wang 1999:112). And therefore, it
is maintained that the retroflex
suffix is best to be treated lexically as a monosyllabic
retroflexed mid vowel and it surfaces as a
retroflex feature in accord with a set of ranked constraints.
It should be pointed out that these non-linear approaches discussed
above benefit a lot from
the theory of syllabic template developed in the mid 1980s. In Yin
(1989) and Lin (1989), the
retroflex suffix is incorporated into the stem syllable by way of
the syllable merger or syllable
5 Duanmu (1990) has proposed the similar feature geometric
treatment of the retroflex suffixation. The retroflex
suffix is a root dominating the place feature [cor] with the
terminal feature [−ant].
12
contraction rules. Duanmu (1990) presents a similar analysis to
Yin’s and Lin’s. Of course,
Duanmu’s analysis is principally segment- based but it is obvious
that he has begun to appeal to
the feature geometry feature in his analysis. Wang (1993) gives us
a totally featural account for the
Mandarin retroflex suffixation. It is apparent that she holds the
view that retroflex suffix is not a
segment but only a feature instead.
In the following sections, I will discuss in detail what
constraints are required in accounting
for the retroflex suffixation in Mandarin Chinese and how these
constraints are ranked in deriving
its optimal expected surface retroflexed rimes. It is implicitly
suggested that many advantages will
be reaped if we take the Mandarin retroflex suffix as a
monosyllabic morpheme instead of a single
feature.
3. An OT Analysis
Having reviewed and discussed the empirical studies and the past
phonological analyses, I
now turn to the analysis made from an OT perspective. I will first
present my OT account for
typological generalizations of diminutive retroflex suffixation
across Chinese languages and then
focus on different aspects of Mandarin retroflex suffixation.
3.1 Typological Variations and Constraint Rankings
It has been acoustically and perceptively proved that the retroflex
diminutive suffix in
Mandarin is phonetically realized only as a retroflexed feature
attached to the rime. But from the
morphological or diachronically phonological point of view, the
Mandarin retroflex suffix
apparently derives from the morpheme [(r]. Lu (1995) claims that
there are generally three types
of retroflex diminutive suffixation among different Chinese
dialects. The first type is that the
diminutive suffix does not lose its syllabicity and is realized as
a monosyllabic morpheme when it
is attached to the suffixed syllable. The second type is that the
diminutive suffix loses its
syllabicity but is still realized as some form of consonantal or
vocalic ending of the rime. And the
third type is that the diminutive suffix loses its syllabicity and
is realized only as a retroflexed
feature incorporated into the rime of the syllable. Beijing
Mandarin is a typical example of the
third type (see also F-T. Wang 1999).
Now let’s take the syllable [ku] for example. The above three types
of retroflex diminutive
suffixation can be exemplified as follows.
(6)
[kuµµ] [Bµµ] [kuµµ.Bµµ] [kurµµ]6 [kuµµ]
6 It should be pointed out that the non-syllabic lexical retroflex
suffix is marked differently in the Chinese
linguistic literature. Some scholars posit [r] for it (e.g. Chao
1968; Hockett 1950; Hsueh 1985; Pulleyblank 1983; Lin 1989; Duanmu
1990) and some use [Br] (Cheng 1973; R. Cheng 1966; Yin 1986). My
analysis in the following subsections will implicitly show that the
retroflex suffixes [r] and [Br] are non-distinctive in Mandarin
Chinese, as the retroflex suffix will be erased due to some
markedness constraints after triggering the assimilation process.
Thus the retroflexed form for [ku] can be marked here either as
[kur] or as [kuB r].
13
It can be easily seen from (6) that Type A is faithful to the input
both in the number of segments
and in the number of moras; Type B is faithful to the input in the
number of segments but not in
the number of moras; and Type C is not faithful to the input either
in the number of segments or in
the number of moras.
In terms of the different types of diminutive suffixation listed
above, I consider the following
four constraints, two faithfulness constraints and two markedness
constraints, are involved:
(7) a. MAX-IO: Every segment of the input has a correspondent in
the output.
b. MAX-µ-IO: Every mora of the input has a correspondent in the
output.
c. SUFFSTM=σ: The suffix and the suffixed stem must be one
syllable.
d. ALIGN-R (Stem, Word): The right edge of the stem must be aligned
with the right
edge of the phonological suffixed word.
(7a) is a faithfulness constraint that penalizes the output
candidate unfaithful in the number of
segments. (7b) is another faithfulness constraint here and it
requires that the number of moras of
the input must be preserved in the output. (7c) is a markedness
constraint that requires the stem
and the affix be incorporated into one syllable. (7d) is an
alignment constraint requiring that the
right edges of the morphological stem and the phonological word
must be aligned with each other.
It is assumed here that the three types of retroflex diminutive
suffixation reported in different
Chinese dialects can be explicitly expressed through the different
rankings of the four constraints
posited above.
(8) The constraints ranked for three types of Chinese retroflex
suffixation
Type A: MAX-IO, MAX-µ-IO >> SUFFSTM=σ, ALIGN-STEM-R
Type B: SUFFSTM=σ, MAX-IO >> MAX-µ-IO, ALIGN- STEM-R
Type C: SUFFSTM=σ, ALIGN- STEM-R >> MAX-µ-IO, MAX-IO
Obviously, the typological variations between the three types of
retroflex diminutive suffixation
are fully expressed by way of ranking the four constraints posited
here. In Type A, the two
faithfulness constraints are ranked over the two markedness
constraints, blocking any
phonological changes under the diminutive suffixation. This ranking
of the constraints well
predicts the first type of diminutive suffixation depicted in Lu
(1995:69) in which the diminutive
suffix [Br] does not lose its syllabicity in the suffixation
process. In Type B, one of the
markedness constraints is promoted into the dominating position in
the constraint hierarchy while
one of the faithfulness constraints originally in the dominant
position is demoted into the
dominated class. Such a transposition between the faithfulness
constraint and the markedness
constraint in the hierarchy indicates some changes may be undergone
under the retroflex
suffixation. Specifically, the diminutive suffix will lose its
syllabicity in terms of the number of
moras but not in terms of number of segments, as reported in Lu
(1995:69-70). In the constraint
hierarchy for Type C, the two markedness constraints dominate the
two faithfulness constraints,
triggering some structural changes in the output forms. The
diminutive suffix loses its syllabicity
both in the number of moras and segments, and the retroflex suffix
is realized as a retroflex feature
14
attached to the syllable, as is shown in Beijing Mandarin.
The effects brought out by the different rankings of the
constraints can be displayed below
with the word [ku] as an example.
(9) Type A: MAX-IO, MAX-µ-IO >> SUFFSTM=σ, ALIGN-STEM-R
Input: kuµµ+Brµµ MAX-IO MAX-µ-IO SUFFSTM=σ ALIGN-STEM-R
a. kuµµ.B rµµ * *
b. kuµrµ *! *
c. kurµµ *! *
In the tableau above, (9c) is assessed as the most unfaithful
candidate by the two dominant
constraints, MAX-IO and MAX-µ-IO, and thus eliminated as a
non-optimal output. (9b), though
satisfying one of the two dominant faithfulness constraints
(MAX-IO), is still eliminated as it
fatally violates the other dominant faithfulness constraint
MAX-µ-IO. (9a) turns out to be the
optimal candidate since its violations are minimal compared with
the other candidates.
(10) Type B: SUFFSTM=σ, MAX-IO >> MAX-µ-IO,
ALIGN-STEM-R
Input: kuµµ+Brµµ SUFFSTM=σ MAX-IO ALIGN-STEM-R MAX-µ-IO
a. kuµµ.B rµµ *! *
b. kuµrµ * *
c. kurµµ *! *
In this tableau, (10a) incurs a violation of the dominant
markedness constraint SUFFSTM=σ and is
dropped out of the competition. (10c) is penalized as a sub-optimal
output because it is not faithful
to the input in the number of the segments it has. Finally, (10b)
is chosen as the optimal candidate
since it least violates the ranked constraints.
(11) Type C: SUFFSTM=σ, ALIGN-STEM-R >> MAX-µ-IO,
MAX-IO
Input: kuµµ+Brµµ SUFFSTM=σ ALIGN-STEM-R MAX-IO MAX-µ-IO
a. kuµµ.B rµµ *! *
b. kuµrµ *! *
c. kurµµ * *
(11a) and (11b) are dropped out because they respectively fatally
violate the dominant markedness
constraints SUFFSTM=σ and ALIGN-STEM-R. (11c), though the most
unfaithful to the input, is
chosen as the optimal output as it violates the only two
un-dominated faithfulness constraints.
Interestingly, the process of changing from the rime with the
monosyllabic suffix to the fully
retroflexed rime that has been observed in different Mandarin
dialects is well predicted in the OT
analysis presented above. It is assumed that this changing process
is the one from the additive to
the fusional retroflex suffixation. In the OT vocabulary, it is a
process of faithfulness demotion
and markedness promotion. The three types of retroflex diminutive
suffixation reflect the three
15
stages of this process.
It is of great significance that the teleological or
output-oriented linguistic theory can predict
the different stages of historical changes of a language or
typological variations of retroflex
suffixation across Chinese languages. Therefore, in this sense, OT
is more advantageous over the
classical rule-based generative models in which extrinsic ordering
of a series of rewrite rules is
applied to account for those phonological changes discussed
above.
As we have discussed above, in Beijing Mandarin, the diminutive
suffix Br is realized as the
only feature attached to the syllable rime in the process of
retroflex suffixation. Obviously, the
suffixation of this kind is exactly predicted in the constraint
hierarchy designed for Type C. Now
we can claim that the retroflexed rime in Beijing Mandarin actually
results from the structural
changes triggered mainly by the dominating markedness constraints
like SUFFSTM=σ and
ALIGN-STEM-R I propose here. Having discussed the general type of
the retroflex suffixation in
Mandarin, I will turn into some specific changes in retroflex
suffixation observed in Mandarin
Chinese.
3.2 Opacity in Retroflex Suffixation and Sympathy Theory
In the previous subsection, I have discussed how to account for the
general typological
differences from an OT perspective. Careful readers will find many
problems are still unsettled
with the limited number of four ranked constraints. For instance,
in (11) the markedness constraint
ALIGN-STEM-R requires to align the right edge of the suffixed form
with the right edge of the stem
of the word suffixed. Of course, this constraint eliminates the
candidates ended with [Br] or [r]
and at the same time assesses the sub-optimal candidates like [ku]
as one of the optimal ones. To
make a right choice between the candidates like [ku] and [ku r],
some other constraints are surely
needed. Let’s take the [ku r] for example. As is known, its input
form is the stem [ku] plus the
retroflex suffix [Br]. It is obvious that the retroflex feature in
the rime of the syllable [u r] derives
from the spreading of the retroflex feature from the suffix. After
the stem gains this feature from
the suffix, the suffix is lost. This process can be schematically
illustrated in the following figure.
(12) ku + B r …… Input
ku r B r …… IDENT-SA(r)
ku r …… ALIGN-STEM-R
(12) shows that the rime of the stem is retroflexed under the
effect of the horizontal faithfulness
constraint on the segments between the stem and the suffix. Thus we
posit the output-output
faithfulness constraint here. This OO-IDENTITY constraint is
operative between the stem and the
suffix and hence defined as follows:
(13) IDENT-SA(r): A segment α in the stem must be identical in
retroflex features
16
specification to its correspondent β in the suffix.
The constraint in (13) is a faithfulness constraint that stipulates
the segments in the stem must be
identical to the suffix in terms of retroflex feature. Consider the
S-IDENT (F) presented by Krämer
(1998, 2000). The constraint proposed here in (13) is similar in
nature to it and can thus be
replaced by S-IDENT(r).
Please note that some scholars may express this retroflex process
by positing the constraints
like the retroflex harmony. Yip (1994), in accounting for the
nasalization in Chaoyang dialect, one
of Chinese languages, proposes two harmony constraints: Rhyme
Harmony and Syllable Harmony.
In doing so, she presupposes that the nasalization derives from the
assignment of a feature to the
rime or the syllable. Zhou (1995) adopts the same way of treatment
in accounting for the
Mandarin retroflex suffixation. But it is argued here that the way
of treating Mandarin retroflex
suffixation by the feature-rooted retroflex harmony constraints
superficializes or simplifies the fact
that the retroflexed rime as in Beijing Mandarin has been
theoretically and empirically proven to
result from the assimilation process of the independent
monosyllabic retroflex suffix. The process
of changing form the rime with an additive retroflex suffix to the
fusional retroflexed rime can be
occasionally found even in the present-day Beijing Mandarin (F-T.
Wang 1999:112). Hence, the
present paper claims that the feature-assigned harmony constraint
does not tell us where the
assigned feature comes from. The OO-IDENTITY constraint proposed
here is similar to the
harmony constraint in that it requires all the segments in the stem
share the same feature
specification with the suffixal segment but it is different from
the feature-rooted harmony
constraint mainly in that it can reflect the source of the feature
in harmony. Another problem with
the feature-rooted harmony constraint is that such a constraint is
hard to be relegated into any one
of constraint families proposed up to now. And, therefore, it is
assumed here that this kind of
constraints is transitorily employed and will be confronted with
many more problems if more
evidence is brought into consideration in the phonological analysis
of retroflex suffixation across
different Chinese dialects.
As we have pointed out, the stem and suffix featural identity
constraint proposed here is a
member of faithfulness constraint family and states that the
segments in the stem must be identical
in retroflex feature specification to the segments in the retroflex
suffix. Now the problem is that
the environment that triggers the retroflex assimilation in the
stem is demolished in the later
derivation. This is very common in Beijing Mandarin. Consider the
retroflex suffixation of [kB r]
(root, ) and [k% r] (vat, ). In the former case, the consonantal
coda [n] triggers the
laxing of the mid vowel and then is deleted under the retroflex
suffixation. And therefore the mid
vowel in the retroflexed form with the lexical consonantal coda (as
in [kB r]: root, ) is
different from the mid vowel in the retroflexed form without the
lexical consonantal coda (as in
[k) r]: song, !). The same is true for the latter case. The nuclear
vowel becomes nasalized
before the lexical consonantal velar nasal is deleted under the
retroflex suffixation. The above
cases can be generalized as the following schema:
(14) AC BC B∅
A becomes B before C C is deleted
(14) shows that A is triggered by C to change to B but the trigger
C is deleted after A has changed
to B. Please note that A will not become B if it does not precede
C. C is obviously the trigger of
the A’s change. That is, some generalization G (here the OO-
IDENTITY constraint given in (13)
plays an active role in shaping of the surface form F (here the B).
But the conditions that lead to
the application of the G (here the trigger C) are not apparent or
opaque in F (McCarthy 1998:1). It
should be admitted that within the classical derivational
generative phonology, the phonological
opacity illustrated in (14) can be easily treated by establishing
an intermediate representation (here
BC) (Kigursky 1971, 1973). But the problem will arise for
Optimality Theory, the theory in which
no intermediate level of representations is allowed.
In the following subsections, I will argue that the problem that we
have encountered in
Mandarin retroflex suffixation can be tackled from the OT
perspective, but only with reference to
Sympathy Theory. To make my OT analysis of Mandarin retroflex
suffixation easily accessible to
the readers, I will first present a brief introduction of Sympathy
Theory initiated in McCarthy
(1998) in the next subsection.
3.2.1 Sympathy Theory
Sympathy Theory is a theory proposed by McCarthy (1998, 2000) for a
parallel treatment of
phonological opacity that some scholars claim to be a big problem
for the teleological OT analysis.
Phonological opacity, the term first dubbed by Kiparsky (1971,
1973), refers to the case in which a
phonological rule is not surface-true or surface-apparent by the
application of subsequent rules.
That is, the output forms are shaped by some linguistic
generalizations that are not surface-true or
surface- apparent. These can be schematized as in (15).
(15) a. ∅ C → BC → B
b. AC → BC → B7
In (15a), the condition C triggers the insertion of B and then C,
the trigger, is deleted. It is obvious
that the insertion plays an active role in the shaping of the
surface form B but its function is not
surface-true. In (15b), A becomes B because it appears before C and
C, which triggers the change
from A to B, is finally deleted. Obviously, the derivation of the
surface forms in (15) depends
crucially on the intermediate stages on which some linguistically
significant generalizations
function actively in the shaping of the output forms.
To account for the above cases within the teleological framework of
OT, McCarthy (1998,
2000) systematically proposes Sympathy Theory. The crucial claim of
this theory is the selection
of the sympathetic candidate and the selection of the actual output
take place in parallel.
Specifically, one of the failed candidates is chosen as a model
candidate that all the other
candidates are required to resemble. The selection of this model
candidate relies primarily on a
7 (15b) is equal to the case represented in (14).
18
designated IO faithfulness constraint. The model candidate,
generally called the sympathetic
candidate, must obey the designated IO faithfulness constraint,
often referred to as the sympathy
selector. It is clear that usually there may be several candidates
that obey the sympathy selector.
Among the candidates that obey the sympathy selector, the
sympathetic candidate is the most
harmonic with respect to the rest of the constraints. Once the
sympathetic candidate is chosen, all
the other candidates are required to resemble it through the
candidate-to-candidate constraint, i.e.,
Sympathy. Now take the often-quoted Tiberian Hebrew case for
example. The process of obtaining the actual output /deše/ from the
lexical form /deš/ by way of parallel constraints is
schematized as follows:
(16) McCarthy (1998:12)
opaque a. deše * *
transparent ( b. deš *! *
sympathetic c. deše *! 6 *
Here, the sympathetic selector is ËMAX-CIO, which selects (16c) as
the sympathetic candidate.
MAX-V is the sympathetic faithfulness constraint, which requires
preservation of vowels of the
-candidate in the output form. (16b) is a transparent candidate but
it drops out of the competition because of the fatal violation of
the sympathetic faithfulness constraint MAX-V . (16a) is
selected as the optimal candidate though it is an opaque
candidate.
It is worth noting that in Tiberian Hebrew the insertion of /e/
here is triggered by the
constraint prohibiting the consonant clusters. But the final
consonant is deleted due to the coda
conditions imposed on it. Obviously, the final consonant is deleted
after triggering the insertion of
/e/ and otherwise /deš/ would be the optimal candidate. In
Optimality Theory, sympathy, the
candidate-to-candidate constraint, must be required so that a
sympathetic candidate is chosen from
all the failed candidates. With the -candidate, the actual optimal
output will be able to be
obtained.
Now come back to Mandarin retroflex suffixation. In Mandarin
retroflex suffixation, just as
many scholars claim, the retroflex suffix is incorporated into the
suffixed syllable and it is
phonetically realized as a retroflex feature attached to the rime
of the syllable. If the suffix is taken
as a lexical monosyllabic entity, the retroflex suffixation can be
expressed technically as: the suffix
spreads its retroflex feature to the rime of the suffixed syllable
and is then deleted. Similar cases
can be found in Mandarin Chinese. For example, the velar nasal
nasalizes the rime of the
retroflexed syllable and is then deleted. Another example, the
dental nasal creates the condition
that makes the mid vowel become lax and, in the retroflex
suffixation, the lax mid vowel that the
deleted dental nasal has brought about is retroflexed. This might
be the reason that the retroflexed
forms [kB r] (root, ) and [k) r] (song, !) are different.
19
How to account for the retroflex suffixation in terms of Sympathy
Theory? It is claimed here
that in Mandarin Chinese the sympathy selector is the faithfulness
constraint ËMAX-IO, which
requires preservation of all the lexical segments in the
-candidate. The sympathetic faithfulness
constraint is IDENT- O(r), which requires the candidates to be
faithful to the -candidate in terms
of the retroflex feature. This proposal can be informally
characterized as in the following tableau.
(17)
sympathetic a. ku r B
r *! 6 *
opaque c. ku r * *
Note that if the sympathetic faithfulness constraint IDENT- O(r)
were not involved, the optimal
candidate would be (17b). It is due to the fatal violation of this
constraint that (17b) is eliminated.
Careful readers may find that the selection of the -candidate
cannot fully rely on the
faithfulness constraint ËMAX-IO since some other candidates also
satisfy it. As I have pointed out
above, in addition to the sympathetic selector, some other
constraints sometimes should be
considered in the determination of the -candidate. For instance,
the candidate [kuB r] is one of
the candidates that satisfy the sympathetic selector ËMAX-IO and it
is chosen as the -candidate
because it least violates the constraint hierarchy among those
candidates that satisfy the
sympathetic selector ËMAX-IO. In this case, the OO correspondence
constraint proposed in (13),
rewritten here as S-IDENT (r), is obviously required.
(18)
a. ku r B
d. ku r * *
It is clear that (18a) and (18b) both satisfy the sympathy selector
but the latter candidate is not
chosen as the -candidate obviously because it is less harmonic than
(18a) with respect to the
constraint set. And thus (18a) turns out to be the -candidate for
the Mandarin retroflex
suffixation.
Up to now, we have discussed the role of sympathy in the Mandarin
retroflex suffixation and
proposed that the sympathy selector of Mandarin Chinese is ËMAX-IO,
the constraint that
preserves all the segments of the input and the sympathetic
faithfulness constraint is the featural
identity constraint, IDENT- O(r) for the retroflex suffixation. It
should be claimed that the
afore-mentioned sympathy treatment of the retroflex suffixation is
also applicable to the other
similar phonological opacities in Mandarin Chinese. In the
following subsections, I will
demonstrate how to deal with the specific cases of retroflex
suffixation within the OT framework.
20
In the discussion, I will make analyses of different aspects of
phonological processes including
those afore-mentioned phonological opacities that are often
encountered in the discussion of
Mandarin retroflex suffixation.
3.3 The Constraints and Their Ranking
In this subsection, I will concentrate my attention on specific
aspects of Mandarin retroflex
suffixation from the OT perspective. What constraints most probably
play an active role in the
suffixation process? How do they interact in obtaining the optimal
output? And in what way are
these constraints ranked?
As we know, the /B r / (or /r/) is morphologically a suffix, which
is added to the ending of the
stem syllable. It is clear that the retroflexed syllable must end
with the retroflexed segment. This
can be expressed by a constraint in (19).
(19) R-ANCHORING-r8: The element [retroflex] at the right periphery
of the input has a
correspondent at the right periphery of the output.
This constraint stipulates that the suffixed syllable must have (at
least) one retroflexed segment at
its right edge. A suffixed syllable may violate it if the segment
at its right edge is not retroflexed in
correspondence to the retroflexed mid vowel in the input.
But on the other hand, as we know, not all the segments can be
retroflexed. Chao (1968:46)
proposes the “simultaneity of compatible articulation”, a general
principle determining whether or
not the segment in the rime can be retroflexed in the retroflex
suffixation. If a coda segment in the
rime is incompatible with retroflexion, it will simply be dropped.
Wang (1993) claims that the
segment incompatible with retroflexion is specified with the
coronal features. But the coronal
vowel [A] does not obey this constraint, that is, it is not
replaced by [r] in the suffixation. Wang
(1993:191) argues that the original coronal feature “dis” of the
segment [A] is replaced by the
retroflex feature [pos] in the retroflex suffixation but the “mid”
specification for its dorsal feature
remains. Wang’s (1993) analysis shows that what is incompatible
with retroflexion is most
possibly the coronal features. But her explanation for why the
coronal segment [A] is compatible
with retroflexion is not satisfactory enough. It is claimed that it
is better, at least at moment, not to
stipulate that the coronal segment is incompatible with
retroflexion in Mandarin Chinese.
In Section 6.1.2, I pointed out that the past empirical studies
show that the back vowels are
compatible with retroflexion while the front high vowels are not.
The front non-high vowels are in
controversy. This means that probably there is a general scale on
one side of which segments are
susceptible to retroflexion and on the other side of which segments
are not. This scale can be
roughly and provisionally embodies as: back vowels (easy to be
retroflexed) to front low vowels
to front mid vowels to front high vowels to consonants (hard to be
retroflexed). Thus a set of
8 (L or R) ANCHORING constraints can be served to distinguish the
prefix and the suffix. McCarthy and Prince
(1999) argue that this kind of constraints should subsume
Generalized Alignment. The R-ANCHORING-r, proposed here, can be
replaced by a alignment constraint, which is expressed as ALIGN-R
(σ, r) (The right edge of the syllable must be aligned with the
right edge of the retroflexed segment).
21
constraints is derived as follows:
(20) a. *r/C9: R-retroflexion is not compatible with a consonantal
segment.
b. *r/I: R-retroflexion is not compatible with a front high vowel /
glide.
c. *r/E: R-retroflexion is not compatible with a front mid vowel /
glide.
d. *r/A: R-retroflexion is not compatible with a front low vowel /
glide.
e. *r/U: R-retroflexion is not compatible with a back vowel /
glide.
These constraints of this set, like moraic constraints, are ranked,
which are shown below.
(21) *r/C >> *r/I >> *r/E >> *r/A >>
*r/U
Here, the constraints on retroflexion are ranked. Like moraic
constraints, some other conflicting
constraints can be intervened in between. For instance, if Mandarin
allows the front high vowels to
be retroflexed, then the constraints triggering the retroflexion
can be presumably intervened before
the constraint *r/I. If Mandarin only allows the back vowel to be
retroflexed, it can be assumed
that the constraints triggering the retroflexion take effects
before the constraint *r/U involves in.
Following Wang and He (1985), I assume that except for the front
nuclear high vowel, all the
non-high vowels and back vowels can be retroflexed. Specifically,
the constraints triggering the
retroflexion must be ranked below *r/I and above *r/E, i.e., the
constraints *r/C and *r/I are in the
dominating position, blocking the retroflexion of the consonants
and the front high vowels, while
the constraints *r/E, *r/A and *r/U are lowly ranked and thus do
not take effects. For ease of
exposition, in the following analysis I will occasionally just use
*r/I to replace the constraint set
*r/C >> *r/I.
Clearly, this constraint is in conflict with some other
constraints, for instance, the constraint
proposed in (19). Take [pan] (signboard) for example. In the
retroflex suffixation, the consonantal
ending [n] is lost. The [n] deletion in the output form obviously
results mainly from the effects of
the two constraints proposed above. Specifically, the constraint
*r/C prohibits the dental nasal to
be retroflexed and the constraint R-ANCHORING-r excludes the
syllable to end with a
non-retroflexed segment. It is obvious that these two constraints
must dominate the constraint
9 Following Wang (1993), Duanmu (1990) and J-L.Wang (1997b), the
constraint can be stated as *r/coronal, i.e., a
coronal segment is incompatible with retroflexion. This constraint
can effectively prevent the coronal segments from being retroflexed
but at present it needs further study at least in three aspects:
XMore phonetic experiments are needed to be done to see whether the
coronal segments like [A] or [a] are also retroflexed. If evidence
shows that what Wang (1997b) and Yang (1991) claim that [a] is not
retroflexed is true, *r/coronal is better than the constraint I
proposed here provisionally. But there has not been enough evidence
up to now to show [A] or/and [a] is/are not retroflexed in the
Mandarin retroflex suffixation. YThe OO identity constraint,
S-IDENT(r), triggers the spreading of the retroflex feature to the
segments in the stem syllable, which of course include all the
consonantal segments in the onset. But as Wang & He (1985)
report, the retroflexion in Mandarin starts nearly simultaneously
from the beginning of the rime, including all the non-high vowels
and the back high vowel [u]. It is questionable, therefore, whether
the constraint, *r/coronal, can exclude all the coronal segments,
including coronal consonantal segments to be retroflexed. Of
course, this can be solved by further specifying the constraint,
like *r/V[coronal]. ZIt needs to be confirmed by more experimental
researches whether the non-coronal nasal, the velar nasal [1], is
retained or deleted after nasalizing the nuclear vowel. If it is
really deleted as many scholars including Duanmu (1990) predict,
then the constraint *r/coronal must be replaced by some other
constraints.
22
ALIGN-Stem-R, which is proposed in (7d). The conflict of these
three constraints can be illustrated
in the following tableau.
a. parnr *!
b. parn *!
c. par *
The above tableau shows that the constraints *r/C and R-ANCHORING-r
must dominate the
constraint ALIGN-Stem-R. And otherwise an unexpected output will be
obtained.
From this analysis we know that these three constraints can be
partially ranked as: *r/C,
R-ANCHORING-r >> ALIGN-Stem-R. Note that this partially
ranked constraint set is also applicable
in obtaining the expected retroflexed forms like [tài(r] (chicken,
ö). The interaction of these
constraints in obtaining [tài(r] from its lexical form [tài+(r] can
be shown in the following
tableau.
(23)
a. tàir *!
b. tài *!
c. tài(r *
Now let’s look at the retroflexion of the mid vowels. It has been
recognized that the
retroflexed forms for the single mid vowel rime and the rime
composed of a mid vowel and a
consonantal coda are different. Consider the retroflexed forms
[kBr] (root, ) and [k)r] (song,
!). These two surface forms derive respectively from the
retroflexion of [kBn] and [k)]. For
the latter case, the optimal output [k)r] is easily derived through
the constraint hierarchy adopted
in (17) and (18). But for the former case, things are a little more
complicated since it involves the
laxing of the mid vowel.
I have discussed in Section 4.2.3 that the tense mid vowel does not
occur before a nasal
consonant or a glide and proposed the constraint *V[+mid, tense]C/G
to account for the laxing of the
mid vowel before a coda consonant or a glide. It is obvious here
that the nuclear mid vowel [kBn]
is triggered by its coda consonant [n] to become schwa first and
then the trigger, the coda
consonant [n], is demolished under the retroflexion. Therefore, the
linguistically significant
generalization, the rule that brings about the laxing of the mid
vowel before the nasal consonant, is
non-surface-apparent. Here, I argue that the phonological opacity
of this kind can also be
accounted for through sympathy. We can adopt the similar way of
treatment to that in (18) to
obtain the expected surface form [kBr]. As we have observed above,
in Mandarin Chinese the
sympathy selector is the faithfulness constraint ËMAX-IO, which
requires that all the lexical
segments of the input should be preserved in the -candidate. The
sympathetic faithfulness
23
constraint is IDENT- O(tense), which requires the candidates to be
faithful to the -candidate in
terms of the mid vowel tenseness. The selection of the optimal
candidate [kBr] (root, ) is
illustrated as in (24).
(24)
Ipt: k)n.Br *r/C R-A *VCC I- O(r) I- O(t) ËM-IO *VC S-I(r)
I-IO(r)
a.k)rnBr *! * 6 * ** *
b.kBrnBr *! 6 ** *
c.kBnBr *! * 6 *** *
(d. k)r *! ** * *
e. kBr ** * *
f. k) *! * * ** **
g. kB *! * ** **
h. kBrnr *! * * *
i. kBrn *! * ** *
Look at the above tableau. The first three candidates all satisfy
the sympathy selector ËMAX-IO
and thus can be viewed as the potential -candidate. But
comparatively, (24b) incurs less
violations of the constraints than (24a) and (24c) and hence is
finally chosen as the -candidate.
(24d) is a transparent candidate because it is transparent in terms
of the tenseness of the mid vowel.
(24f) and (24g) both violate the higher ranked constraint that
retroflex must be anchored at the
right periphery of the output and besides they both violate the
sympathetic faithfulness constraints
here: IDENT- O(retroflex) and IDENT- O(tense) and hence drop out of
the competition. (24h) and
(24i) are excluded due to the fatal violations of the high-ranked
constraints *r/C and
R-ANCHORING-r. Finally, (24e), [kB r], is chosen as the optimal
candidate since it minimally
violates or best satisfies the constraint hierarchy proposed
here.
The same is true for the retroflexion of [kun]. As we know,
evidence shows that the
retroflexed form of [ku] (drum, è) is quite different from that of
[kun] (stick, ¢). The former is
[kur] while the latter is [kur (
r]. Clearly, it is easy to obtain the expected output for the
retroflexed
form of [ku] but it is not so easy for [kun].
It has been demonstrated in Section 4.2.3 that [kun] alternates
with [ku(n] under the effects
of moraic constraints and these possible surface forms come form
the corresponding lexical form [ku)n] through the mid vowel
reduction triggered by the *V[+mid, +tense]C/G. It is obvious that
the
retroflexed form of [kur (
r] derives before moraic constraints take effects in eliding the
reduced
mid vowel. The process of obtaining the retroflexed form [kur
(
r] is illustrated as below.
(25)
24
Ipt: ku)n.Br *r/C R-A *VCC I- O(r) I- O(t) ËM-IO *VC S-I(r)
I-IO(r)
a.kur )
rn *! * ** *
Now let’s look at the relations between the moraic markedness
constraints and the constraints
proposed here to account for the retroflex suffixation in Mandarin
Chinese. It is suggested in Ma
(2001b) that one of the functions in applying the moraic markedness
constraints is to identify
which segments are linked to the moras and which are not. The
segments linked to moras are
assumed to be part of the rime; others are assumed to be of the
margins or, in Mandarin, of the onset. Take [tài] for example. [i],
not [tà], is linked to the moras because *MORA[CONS] is
ranked
higher than *MORA[HIGH]. But problems arise when the moraic
constraints apply to its retroflexed form [tàiBr]. If the [i] in
the retroflexed form of [tài] is a high vowel, i.e., the actual
retroflexed
surface form is [tàiBr], moras will be associated with [i] and
[Br], as illustrated as in (26).
(26)
a. tàiµBrµ * *
b. tàiBrµµ **!
And if the [i] in the retroflexed form of [tài] has become a high
glide, i.e., the actual retroflexed
surface form is [tàyBr], things will become a little more
complicated. Only the moraic constraints
cannot bring about [tàyBr] as the expected optimal output, as
illustrated as in (27).
(27)
a. tàyµ B
? c. tàiµBrµ * *
The moraic constraints in (27) selects [tàiµBrµ] as the optimal
candidate, which runs against what
we expect.
The above analysis shows that whether [i] surfaces as a glide or as
a vowel cannot be
determined only by the moraic constraints. Therefore we must first
make clear whether [i]
phonetically has become a glide or remains as a high vowel. But up
to now no agreement has been
25
reached on this aspect. Here I want to present the possible
solutions to the two cases of [i] in its retroflexion. If [i]
surfaces still as a high vowel, i.e., the actual retroflexed
surface form is [tàiB r],
the moraic constraints apply just as suggested in (26) above. If
[i] surfaces as a high glide, i.e., the actual retroflexed surface
form is [tàyB r], only the moraic constraints cannot explain how
the
underlying high vowel [i] becomes a high glide [y] in the retroflex
suffixation. The possible
solution to it is that there is another constraint ranked over the
moraic constraints. The constraint
can be written probably as in (28).
(28) ALIGN-L (r, µ): The left edge of the retroflexed segment of a
syllable must be aligned
with the mora of the left side.
The constraint proposed in (28) is an alignment constraint
requiring the retroflexed segment in a
syllable must be (part) of the rime. If a segment is not
retroflexed in the retroflexion, it will not be
relegated to the rime of the syllable. Obviously, in the above
case, this constraint must be ranked
over the moraic constraints. Putting this constraint into the
constraint hierarchy in (27), the
expected result will be obtained.
(29)
Input:tàiBr + µµ ALIGN-L (r, µ) *MORA[GLIDE] *MORA[SCHWA]
*MORA[HIGH]
a. tàyµ B
b. tàyBrµµ **
c. tàiµBrµ *! * *
The employment of the constraint I posit in (28) effectively
excludes the candidate [tàiBr] as the
optimal one and thus identifies [tàyBr] as the only surface output
for the retroflexed form of [tài]
in Mandarin Chinese.
Another point drawn from the above analysis is that the moraic
constraints must rank below
the constraints concerning the retroflex suffixation. This is
because the insertion of the moraic segment [Br] in the retroflexed
form [tàyBr] is triggered by those constraints relevant to
the
retroflexion. To put all these constraints together, the
illustration in (29) will be elaborated in the
following tableau.
(30) ö
Input: tài+B r+µµ *r/I R-AN-r AL-STEM-R AL-L-µ *M[y] *M[B]
*M[i]
a. tài rµµ *! **
rµ * *! * *
Note that the moraic constraints are involved in obtaining the
expected retroflexed output of [tài].
26
The requiring of moraic constraints in obtaining the retroflexed
form can be further supported by
the following example [un].
As some scholars point out, [un] appears sometimes as [u(n] and
sometimes as [un] (Lin
1989). I have discussed how to describe the rime of a syllable with
schwa (as in [w(n]) and
without schwa (as in [tun]) within the OT framework and pointed out
that the laxing of the lexical mid vowel [)] results in the former
case and the moraic constraints bring about the result that
the
laxed mid vowel [(] in [u(n] is elided (Ma 2001b:Chapter 4). I
claimed there that schwa
alternation in the syllables of this type can be accounted for with
reference to the interaction of *V[+mid, +tense]C and the moraic
markedness constraints. Now the problem is how to account
for the retroflexed forms of these syllables from the OT’s point of
view.
Consider the syllables [w(n] and [tun]. Evidence shows that these
two syllables have the
same retroflexed rimes [uBµ]. This shows that the laxing of the mid
vowel takes place before the
retroflexion and the retroflexion before the assigning of the moras
to the segment(s) in the rime.
But in the teleological framework of OT, all the possible
candidates freely generated on the basis
of the input simultaneously feed into the evaluator composed of a
set of ranked constraints for
assessment. The candidate that least violates the set of
constraints provided by the evaluator will
be selected as the optimal candidate of the input. Therefore the
concept of the serial stages of
derivation, i.e., the ordering of the rule applications, is totally
insignificant. What is most
significant is to identify which of the constraints is more active
in assessing the linguistic surface
forms. The more active constraint, the higher it is ranked in the
constraint hierarchy.
As for the constraints related with the retroflexion of the
syllable with [un] as its rime, the
moraic markedness constraints must be ranked lower than the
constraints relevant to the
retroflexion. Otherwise the retroflexed mid vowel [Br] will not
surface. To put it in another way,
the constraints concerning the retroflex suffixation takes effect
before the moraic markedness
constraints, the constraints determining whether or not the [B] in
[un] turns up in the surface
forms, come into effect.
Now the problem is the phonetic realization of [u] in the
retroflexed form of [tun].
Specifically, if [u] is retroflexed, it is phonetically realized as
[u]; if it is not, it is [w]. Such a
theoretical prediction needs to be attested by more acoustic
experiments.
If experiments attest that the retroflexed form of [tun] is [tur
B
r], the constraints proposed
above are well enough in obtaining it. The evaluation process
between the two competing
candidates [tur B
(31)
b. twBrµµ **!
Please note that which of these two competing candidates is more
harmonic can be determined by
the partially ranked constraint hierarchy employed in (24) and
(25). Hence the task of determining
which is the optimal candidate naturally passes down to the lower
ranked moraic constraints
27
presented in (31). Here it has been proposed that these constraints
can be approximately ranked as:
*r/C >> *r/I, R-ANCHORING-r >> *VCC]σ >>
ALIGN-Stem-R, IDENT- O(r), IDENT- O(t) >>
ËMAX-IO, *V[+mid, +tense]C/G, ALIGN-L(r, µ) >> *MORA[SCHWA]
>> *MORA[HIGH] >> S-IDENT(r)
>> IDENT-IO(r).
But if the retroflexed form of the [tun] is not [tur B
r] but [twBr], the constraints proposed
above are not well enough in obtaining it and we are compelled to
appeal to some other constraints.
A possible solution, I suggest here now, is to define S-IDENT(r) as
S-IDENT-SS(r) instead of
S-IDENTµ(r) or S-IDENTσ(r). Specifically, to restrict the spreading
of the suffixal retroflex feature
to the segments of the stem, the syllable-to-syllable S-IDENTσ(r)
or rime-to-rime S-IDENTµ(r) used
here must be replaced here by the segment-to-segment
S-IDENT-SS(r).
Theoretically, all the IDENT, MAX and DEP constraints are members
of the correspondence
constraint family. MAX and DEP constraints are different from IDENT
constraints in that MAX and
DEP require the faithfulness in the number of segments while IDENT
requires the faithfulness in the
content of the segments. These constraints are originally proposed
to require the faithfulness
between input and output (McCarthy & Prince 1993) but now have
been extended to express the
faithfulness between output and output (Benua 1995; Flemming 1995;
McCarthy 1995; Burzio
1996; Kenstowizc 1996; Steriade 1996) and even between candidate
and candidate (as in
Sympathy, developed by McCarthy 1998, 2000). As for the IDENT
constraints, the constraints
requiring the faithfulness between the segments in terms of their
feature(s), usually hold over the
one-to-one mappings, that is, mappings between one and one segment.
Pulleyblank (1997), in
accounting for the consonantal place assimilation, proposes
IDENTICAL CLUSTER CONSTRAINTS
(often shortened as ICC). Significantly, assimilation is analyzed
as an effect of correspondence
constraints on more than two distinct elements within one
representation. Inspired by this idea,
Krämer (1998, 2000) develops SYNTAGMATIC IDENTITY constraints to
account for vowel harmony
in some languages.
There is one point that needs to be addressed here. Our analyses
show that there are two types
of harmony (or assimilation) in terms of some feature(s): Xharmony
between two adjacent
segments and Yharmony among a cluster of segments. As for the
former case, it is claimed here
that S-IDENT-SS (r) can be employed to account for it. Take the
retroflexed form of [xua] (flower,
) for example. If only the last segment [a] is subject to be
retroflexed and [u] is not, then it
can be assumed that the retroflexion takes place only between two
adjacent segments. Technically,
S-IDENT-SS (r) is deemed to apply. But if [u] and [a] all become
retroflexed, then it can be
considered that the retroflexion occurs among a cluster of
segments, or within a syllable domain10.
Technically, S-IDENTσ(r) is supposed to apply. In short, Optimality
Theory can well account for
presumably two possible types of retroflexion. Which type of
treatment should be adopted in
accounting for the Mandarin retroflex suffixation all depends on
the phonetic evidence provided
by authentic acoustic experiments.
Now let us look at the retroflexion of apical vowels. I claimed in
Ma (2001b) that apical
vowels are lexically absent and demonstrated how the lexically
absent apical vowels are derived
10 The fact that consonants in the onset and nasals or front high
glides in the coda are not retroflexed can be
considered to be due to the incompatibility with retroflex
articulation.
28
within the OT framework. It is obvious that retroflexion goes
before the epenthesis of apical
vowels. Takeò ((r, silky) for example. The retroflexion process can
be illustrated as in the
following tableau.
(32) ò
a. (r *
c. ur * *!
The tableau (32) shows that the lexically empty rime (or nucleus)
cannot be filled in by any other
retroflexed vowel (like ur in 32c) than the retroflexed mid vowel
[(r] because the faithfulness
constraint IDENT-IO(F) penalizes the segment with the features not
present in the input. Recall the
constraint set I proposed in Section 4.3.2. The faithfulness
constraint IDENT-IO(F) is highly ranked,
or ranked above the set of markedness constraints responsible for
the apical vowel epenthesis.
Here, constraints triggering the epenthesis (precisely, retaining)
of the retroflexed mid vowel
apparently are ranked above the faithfulness constraint
IDENT-IO(F). In doing so, the expected
output can thus be obtained.
After discussing the retroflexion of apical vowels in Mandarin, let
us come to another case of
Mandarin retroflex suffixation, the retroflexed form of the rime
ending with a velar nasal.
It is commonly known that in Mandarin the nasal consonantal coda
[n] is deleted when the
syllable is retroflexed while the velar nasal [1] nasalizes the
nuclear vowel before it is deleted in
retroflex suffixation. As I have pointed out in Section 6.2,
different proposals have been advanced
so far to account for it. Most of the proposals (e.g., Duanmu 1990;
Wang 1993; Wang 1997b)
attribute the retaining of the nasal feature in the syllable ending
with a velar nasal to the
compatibility articulation. Specifically, the constraint *r/coronal
that they proposed11 disallows [n]
but allows [1] to surface as a coda in the retroflexed syllable.
There are at least two problems with
this kind of phonological explanation. XIt seems to be arbitrary to
make such a generalization
that [1] is retained and [n] is deleted through the constraint
*r/coronal since many studies have
shown that the coronal vowels, say [a], can be retroflexed. YMany
acoustic experiments show
that the segment [1] is also deleted in retroflex suffixation. To
assume that it is retained, more
acoustic experiments must be provided.
I will argue here that neither of these two nasal consonants is
retained in retroflex suffixation
and the nasalized vowel in the retroflexed form actually results
from the higher ranking of some
universal constraint related with the velar nasal.
It is observed in many languages that vowels tend to be nasalized
before a tautosyllabic nasal
consonant. As we know, there are two nasal consonants in Mandarin,
[n] and [1]. Acoustic
experiments show that phonetically vowels tend to be nasalized
before these two nasal consonants.
11 Specifically, the constraint that Wang (1993) proposes is that
the retroflex feature [pos] is incompatible with the
coronal feature [dis]. If the coronal feature [dis] is lexically
associated with the root node, in retroflex suffixation this
feature will be de-linked with the root node and be replaced by the
retroflex feature [pos]. The constraint *[+retroflex, +posterior]
that Wang (1997b) proposes is quite similar in nature to the
constraint proposed here.
29
These can be expressed by the following two markedness
constraints.
(33) a. *VORALN b. *VORAL1
These two constraints rule out oral vowels that precede a
tautosyllabic nasal. Consider that nasal
vowels are “marked” as compared to oral vowels and many languages
have only oral vowels but
no nasal vowels (Maddieson 1984). This universal tendency can be
expressed by a markedness
constraint in (34).
(34) *VNASAL
It is obvious that in Mandarin the constraint in (34) is in
conflict with the constraints in (33).
Evidence shows that in Mandarin these three constraints must be
ranked as *VORAL1, *VORALN >>
*VNASAL. Such a ranking results in nasal vowels surface before a
tautosyllabic nasals. Now the
problem is how these